未来の高CO₂環境で「光のゆらぎ」に負けないイネへ ――Rubisco activaseによる光合成と成長の強化戦略――

2026-06-02 東京大学

Rubisco activaseによる光合成と成長の強化戦略

＜関連情報＞

• https://www.a.u-tokyo.ac.jp/topics/topics_20260602-1.html
• https://onlinelibrary.wiley.com/doi/10.1111/pce.70617

ルビスコ活性化酵素の過剰発現は、将来の高CO2条件下での変動光下におけるイネの光合成と植物成長を改善する Overexpression of Rubisco Activase Improves Photosynthesis and Plant Growth in Rice Under Fluctuating Light Under Future High CO2 Conditions

Wataru Yamori, Marika Inagaki, Hiroshi Fukayama
Plant,Cell & Environment  Published: 02 June 2026
DOI:https://doi.org/10.1111/pce.70617

ABSTRACT

Rubisco activase mediates the activation of Rubisco, the key photosynthetic CO₂-fixing enzyme, and plays a crucial role in regulating photosynthesis and plant growth. Rubisco activase restores catalytic competence to Rubisco active sites by promoting the release of inhibitors in an ATP-dependent manner. The present study analyzed the role of Rubisco activase in the photosynthetic response to fluctuating light under future high CO₂ conditions using transgenic rice plants that expressed different amounts of Rubisco activase. Under both low CO₂ (200 μmol mol⁻¹) and high CO₂ (800 μmol mol⁻¹) concentrations, overexpression of Rubisco activase resulted in a faster rate of Rubisco activation upon irradiation, leading to faster photosynthetic induction and greater photosynthetic response to long-term fluctuating light conditions. In addition, the transgenic plants overexpressing Rubisco activase showed improved water use efficiency under long-term fluctuating light conditions compared with wild-type plants. Finally, under high CO₂ conditions, the overexpression of Rubisco activase resulted in improvement in plant growth under fluctuating light conditions, whereas the plant growth under constant light was similar among genotypes. The results of this study showed that Rubisco activase plays a substantial role in the response to the natural dynamic light environment under future high CO₂ concentrations.